SU866631A1 - Device for determining glaze ice load on wires - Google Patents

Description

.one . The invention relates to electric power industry and is intended for use in icy areas where damage to electric transmission lines from ice is possible. ..: fiSBecTHO device for controlling the level of ice load on power transmission lines, containing n consequently connected inhomogeneity meters, a radio pulse generator, an attachment filter and a coupling capacitor, the output of which serves to connect to the end of one of the line wires, as well as the end miner and , linear barriers for inclusion in the specified wires in the most icy places to receive the generator output of the radio impulse. The terminals are connected to the inhomogeneity meter input, and the ice load sensors are used for installation on the wire of the line at the connecting points of the linear barrier and through the plungers connected to the inputs of the tuning regulators, the outputs of which are connected to the linear barrier elements l. However, this device requires a wide frequency band for operation and does not allow measuring the wall thickness of the ice. The closest technical solution is a device for determining the icy load on power lines of the transmission line equipped with interlocking systems and end barriers, containing an icing load sensor mounted on the line wire in a tolopasopasnost place and connected by a plunger with a control element of the quadrupole 21. However, judge the speed It is difficult to increase the level of ice in terms of the display of such a device, since the attenuation varies according to a very complex law. The purpose of the invention is to provide a measurement of the rate of change of ice load. The goal is achieved by the fact that the device for determining the icing load on the wires of the transmission line, equipped with attachment systems and terminal barriers, contains an icing load sensor, - mounted on the wire of the line in an icy hazardous place and connected by a plunger with a controlled

element of the quadrupole equipped with a sweep generator, receiver, automatic gain control unit, 6npKOM: tifbi & c) fa the minimum of the amplitude of the amplitude: sirnala and indication, and the output of the sweep: -:. ronoretor is connected to the input of the first connection system, and The output of the second connection system is connected to a signal input of the receiver, the control of which vhbd is connected to the control unit of the automatic adjustment and gain unit, and the output of the receiver is connected to the inputs of the automatic gain control unit and the minimum signal amplitude selection unit, the output of which is connected to the input of the display unit.

The drawing shows a block diagram of the proposed device.

The device contains an attachment system 1, end barriers 2 sensor 3, ice load, plunger 4, controlled quadrupole 5, sweep generator b, receiver 7, automatic gain control unit 8 (AGC), signal amplitude minimum selection unit 9, display unit 10 .

The device contains at one end of the line a sweep-generator 6 connected through the system of connection 1 to the phase conductor of the line. At the other end, the signal input of the receiver 7 is connected to the same wire through the connection system 1, the outputs of which are connected to the inputs of the AGC unit 8 and the minimum amplitude selection unit 9, the output of which is connected to the input of the display unit 10 The block 9 can be performed, for example, from a set filters whose output includes detectors and a minimum selection element.

 At the place of possible formation of a dangerous level of icing load, a controlled quadrupole 5 is installed, connected by a plunger 4 with a sensor 3 of icing load. As a controlled quadrupole, a tunable fence, connected to a power line wire or a communication capacitor, and an oscillating circuit (or several switchable oscillating circuits) connected between the phase conductor and the horns can be used.

The principle of operation of the device is based on the change in the attenuation of the high-hour path through the high-voltage line, caused by the change in the parameters of a quadrupole controlled from the ice sensor connected on the line. In this case, the frequency at which the greatest attenuation takes place corresponds to a certain thickness of the ice wall.

The sweep generator 6 generates a frequency-modulated voltage.

in a given frequency band that propagates along the power line.

At the opposite end of the line, this voltage is filtered and amplified in receiver 7, the gain being determined by an AGC block 8. This unit maintains a constant level of the signal coming from the power line. Permanent

the AGC time must be greater than the modulation period of the sweep-generator voltage.

When the wall thickness of ice changes, the signal frequency changes at which the attenuation is maximal (

5 by changing the settings of the quadrupole 5).

Block 9 selects a frequency that has a minimum amplitude from the incoming one. signal. Each frequency with a minimum amplitude corresponds to a specific ice wall, the thickness of which is indicated by the display unit 10. This proposal allows you to follow the dynamics of wall changes.

5 ice and reasonably determine the time and place of melting ice.

Technical and economic efficiency of the invention is to improve the reliability of power supply due to reliable and accurate determination of ice wall thickness, the invention The device for determining ice load on wires of an electrical transmission line equipped with interconnecting systems and end-barriers containing an ice load sensor mounted on a wire of a line in an iced-up location and connected by a plunger with a controllable

0 element of the quadrupole, characterized in that, in order to ensure the measurement of the rate of change of the icing load, it is equipped with a sweep generator, a receiver,

5 automatic adjustment unit

the amplification unit and the display unit, the sweep generator output is connected to the input of the first connection system, and the output of the second connection system is connected to the receiver input, the control input is connected to the output of the automatic gain control unit.

and the output of the receiver is connected to the inputs

an automatic gain control unit and a minimum amplitude selection unit for a signal whose output is connected to the input of the display unit.

Sources of information taken into account in the examination

1. Authors certificate of the USSR W603034, cl. H 02 G 7/16, 1976.

2. USSR Author's Certificate in W 2750754 / 24-07,

cl. H 02 G 7/16, 1979.

Claims (1)

Claim A device for determining icing load on wires of a power line equipped with connecting systems with end traps, comprising an icing load sensor mounted on a line wire in an icy hazardous place and connected by a plunger with a controlled element of a four-terminal device, characterized in that, in order to provide a measure of the rate of change of icing load , it is equipped with a sweep generator, a receiver, an automatic gain control unit, a signal amplitude minimum selection unit, and a block m indication, and the output of the sweep generator is connected to the input of the first connection system, and the output of the second connection system is connected to the signal input of the receiver, the control input of which is connected to the output of the automatic gain control unit, and the output of the receiver is connected to the inputs of the automatic gain control unit and the selection unit minimum amplitude of the signal, the output of which is connected to the input of the display unit.